yellow
Mixing bromothymol blue and sulfuric acid would not result in a colour change, as sulfuric acid is a strong acid and bromothymol blue is a pH indicator that changes colour based on the acidity or alkalinity of a solution.
yes. bromothymol blue can act as a acid base indicator. becoz in acidic condition(pH:below 7) bromothymol blue is in green colour whereas in alkaline condition(pH: above 7) its colour changes into blue..
Nitric acid is a strong acid and will turn bromothymol blue to yellow in color because it contains protons that can react with the indicator, causing it to change color.
Methyl orange and methyl red both shows red color in a HCl solution where pH is lesser than 4.71.
Bromothymol blue is green at a pH of 5.
Mixing bromothymol blue and sulfuric acid would not result in a colour change, as sulfuric acid is a strong acid and bromothymol blue is a pH indicator that changes colour based on the acidity or alkalinity of a solution.
yes. bromothymol blue can act as a acid base indicator. becoz in acidic condition(pH:below 7) bromothymol blue is in green colour whereas in alkaline condition(pH: above 7) its colour changes into blue..
Nitric acid is a strong acid and will turn bromothymol blue to yellow in color because it contains protons that can react with the indicator, causing it to change color.
It can be green or blue.
Methyl orange and methyl red both shows red color in a HCl solution where pH is lesser than 4.71.
Bromothymol blue is green at a pH of 5.
Bromothymol blue is blue in neutral or basic solutions, and yellow in acidic solutions.
Hydrochloric acid will keep litmus red - it needs alkali to turn it blue
Red!
The water solution of bromothymol blue is a little acidic.
Bromothymol blue would appear yellow in dilute nitric acid.
The natural color of dilute hydrochloric acid is colorless. It is a clear liquid with no distinct color.